Assoc. Prof. Dr. HAIJIANG HU | Metals | Best Researcher Award

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Assoc. Prof. Dr. HAIJIANG HU | Metals | Best Researcher Award

Assoc. Prof. Dr. HAIJIANG HU | Metals | Associate professor at Wuhan University of Science and Technology , China

Dr. Haijiang Hu is an Associate Professor at Wuhan University of Science and Technology, specializing in materials science and engineering. He has made significant contributions to the study of bainitic transformation and microstructure control in advanced high-strength bainitic steel. With a strong academic background, including a master-doctor combined program in materials science and a postdoctoral fellowship at McMaster University, Canada, he has published 129 academic papers, including 73 in SCI journals. Dr. Hu has also authored two books, holds 11 patents, and has been actively involved in 15 consultancy projects. His research has been widely cited, reflecting his impactful contributions to the field. Recognized for his excellence, he has received the First Prize of Hubei Province Science and Technology Progress Award. His work bridges theoretical advancements and industrial applications, influencing the development of high-performance steel for engineering applications.

Professional Profile : 

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Summary of Suitability for Award:

Dr. Haijiang Hu is a highly accomplished researcher in materials science and metallurgy, with an exceptional track record in advanced high-strength bainitic steel research. His expertise spans bainitic transformation, microstructure control, and industrial applications of steel processing. With 129 academic papers, 73 SCI-indexed publications, and 11 patents, he has made significant scientific contributions that bridge fundamental research and industrial applications. His research on retained austenite regulation and mechanical stabilization has enhanced the performance of ultra-high-strength steels, benefiting both academia and industry. Dr. Haijiang Hu’s extensive research, high citation impact, innovation in bainitic steel processing, patents, and industrial collaborations make him an ideal candidate for the “Best Researcher Award”. His work significantly advances materials science, offering practical solutions for industrial steel production while deepening our understanding of phase transformation mechanics. Given his global research impact, multiple publications, and prestigious awards, he is a highly deserving nominee for this recognition.

🎓Education:

Dr. Haijiang Hu pursued a master-doctor combined program in Materials Science at Wuhan University of Science and Technology, China. He enrolled in 2012 and successfully completed the program in 2017, gaining in-depth expertise in metallurgy and materials engineering. His doctoral research focused on bainitic transformation and microstructure control, laying the foundation for his future studies. Postdoctoral research took him to McMaster University, Canada (2018–2020), where he investigated the regulation of retained austenite and mechanical stabilization in ultra-high-strength Fe-C-Si-Mn bainitic steel. His academic journey reflects a commitment to innovation in materials science, with a strong emphasis on phase transformation, steel microstructure, and industrial applications. His interdisciplinary education has positioned him as a leader in materials engineering, with extensive research collaborations and contributions to advancing high-strength steels.

🏢Work Experience:

Dr. Haijiang Hu has accumulated extensive experience in both academia and research. Currently an Associate Professor at Wuhan University of Science and Technology, he has been actively engaged in teaching and research, mentoring students and leading multiple projects. His postdoctoral tenure at McMaster University, Canada, further enhanced his expertise in bainitic transformation and microstructure control. He has successfully executed 15 consultancy and industry projects, demonstrating his ability to translate theoretical research into industrial applications. His role as an editorial board member for prestigious journals such as Metals and International Journal of Minerals, Metallurgy and Materials underscores his influence in the field. His professional memberships, including with The Chinese Society for Metals, reflect his active participation in the scientific community. Through international collaborations, particularly with Prof. Hatem Zurob, Dr. Hu continues to contribute to groundbreaking research in advanced high-strength steels.

🏅Awards: 

Dr. Haijiang Hu has been recognized for his groundbreaking contributions to materials science. His most notable accolade is the First Prize of Hubei Province Science and Technology Progress Award, which acknowledges his innovative research in bainitic transformation and microstructure control. His extensive body of work, comprising 129 academic papers and 73 SCI-indexed publications, has earned him a strong reputation in metallurgy and materials engineering. His patents and books further demonstrate his leadership in the field. His achievements extend beyond academia, as he has successfully bridged the gap between research and industrial applications. His role in consultancy and collaborations with top-tier institutions further highlight his impact. Through these honors, Dr. Hu has established himself as a distinguished researcher whose contributions continue to shape the future of advanced high-strength steels.

🔬Research Focus:

Dr. Haijiang Hu’s research focuses on bainitic transformation and microstructure control in advanced high-strength bainitic steel. He investigates the effects of ausforming on bainitic transformation, refining microstructures to optimize steel performance. His work has identified key parameters such as peak value strain and critical deformation temperature, which provide valuable guidance for industrial steel production. His findings contribute to the theoretical understanding of low-temperature bainite transformation and have practical implications for developing medium/high-carbon bainitic steels. His research integrates computational modeling, experimental validation, and industrial-scale applications, ensuring that his work is both scientifically rigorous and practically relevant. His studies in retained austenite regulation and mechanical stabilization mechanisms are instrumental in advancing the performance of ultra-high-strength steels. Through international collaborations and interdisciplinary approaches, Dr. Hu continues to push the boundaries of materials science, making significant contributions to both academia and industry.

Publication Top Notes:

Title: The effects of Nb and Mo addition on transformation and properties in low carbon bainitic steels

Authors: H Hu, G Xu, L Wang, Z Xue, Y Zhang, G Liu

Journal: Materials & Design

Citations: 148

Year: 2015

Title: A new approach to quantitative analysis of bainitic transformation in a superbainite steel

Authors: G Xu, F Liu, L Wang, H Hu

Journal: Scripta Materialia

Citations: 105

Year: 2013

Title: New insights to the effects of ausforming on the bainitic transformation

Authors: H Hu, HS Zurob, G Xu, D Embury, GR Purdy

Journal: Materials Science and Engineering: A

Citations: 90

Year: 2015

Title: Refined Bainite Microstructure and Mechanical Properties of a High‐Strength Low‐Carbon Bainitic Steel Treated by Austempering Below and Above MS

Authors: J Tian, G Xu, M Zhou, H Hu

Journal: Steel Research International

Citations: 61

Year: 2018

Title: Bainitic transformation and properties of low carbon carbide-free bainitic steels with Cr addition

Authors: M Zhou, G Xu, J Tian, H Hu, Q Yuan

Journal: Metals

Citations: 56

Year: 2017

Title: The effects of Cr and Al addition on transformation and properties in low-carbon bainitic steels

Authors: J Tian, G Xu, M Zhou, H Hu, X Wan

Journal: Metals

Citations: 50

Year: 2017

Title: Effect of Mo content on microstructure and property of low-carbon bainitic steels

Authors: H Hu, G Xu, M Zhou, Q Yuan

Journal: Metals

Citations: 50

Year: 2016

Title: Effect of ausforming on the stability of retained austenite in a C-Mn-Si bainitic steel

Authors: H Hu, G Xu, L Wang, M Zhou, Z Xue

Journal: Metals and Materials International

Citations: 44

Year: 2015

Title: Effects of Al addition on bainite transformation and properties of high-strength carbide-free bainitic steels

Authors: J Tian, G Xu, M Zhou, H Hu, Z Xue

Journal: Journal of Iron and Steel Research International

Citations: 40

Year: 2019

Title: In situ measured growth rates of bainite plates in an Fe-C-Mn-Si superbainitic steel

Authors: Z Hu, G Xu, H Hu, L Wang, Z Xue

Journal: International Journal of Minerals, Metallurgy, and Materials

Citations: 37

Year: 2014

Shadi Asgari | Chemistry and Materials Science | Best Researcher Award

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Dr.Shadi Asgari | Chemistry and Materials Science | Best Researcher Award

Postdo of Alzahar University, Iran

Shadi Asgari, an accomplished Iranian chemist, was born on September 30, 1989. She holds a B.Sc. in Applied Chemistry from Isfahan University of Technology and an M.Sc. in Polymer Chemistry from the University of Isfahan, where she excelled under Dr. Gholam Ali Koohmareh’s supervision. Her academic journey culminated with a Ph.D. in Organic/Polymer Chemistry from Sharif University of Technology, supervised by Prof. Ali Pourjavadi, and included a visiting Ph.D. stint at the Technical University of Denmark. Asgari has held various research and teaching roles, including postdoctoral positions at the University of Tehran and Alzahra University, and a visiting scholar role at Hong Kong Baptist University. Her expertise spans organic/inorganic synthesis, nanomaterials, and drug delivery systems, with a strong focus on practical applications in quality control and R&D. Recognized for her academic excellence, she has received prestigious awards such as the Ministry of Science Scholarship and the Iran Science Elites Federation Grant.

Professional Profile:

Education

Shadi Asgari, an Iranian chemist, has a robust educational background with a B.Sc. in Applied Chemistry from Isfahan University of Technology and an M.Sc. in Polymer Chemistry from the University of Isfahan, where she was supervised by Dr. Gholam Ali Koohmareh. She earned her Ph.D. in Organic/Polymer Chemistry from Sharif University of Technology under Prof. Ali Pourjavadi and also conducted research as a visiting Ph.D. student at the Technical University of Denmark. Professionally, Asgari has held roles as a research assistant, quality control expert, teaching assistant, and postdoctoral researcher at prestigious institutions such as the University of Tehran and Alzahra University. Her research interests include the synthesis of organic/inorganic compounds, nanomaterials, drug delivery systems, and nanocomposites. She has received notable awards, including the Ministry of Science Scholarship and the Iran Science Elites Federation Grant. Asgari’s research skills encompass various spectroscopic and analytical techniques, such as FT-IR, UV-Vis, HPLC, and Raman spectroscopy.

Professional Experience

Shadi Asgari has amassed diverse professional experience in both academic and industrial settings. She began her career as a research assistant at the University of Isfahan, contributing to significant projects under Dr. Gholam Ali Koohmareh’s supervision. Following this, she prepared for and excelled in Iran’s competitive Ph.D. entrance exam. In the industrial sector, she worked as a quality control expert at Maral Charm Pishtaz Isfahan, focusing on ensuring product standards. Her academic roles have included serving as a teaching assistant for organic chemistry courses at Sharif University of Technology and supervising student research projects at Tehran University of Medical Science. As a postdoctoral researcher, she conducted advanced studies at the University of Tehran and Alzahra University, working on cutting-edge projects in chemistry and nanotechnology. Additionally, she has experience as an R&D expert at Pishgaman Fanavari Daricheh Company, where she specialized in toner component characterization and lithography for printing technologies.

Research Interest

Shadi Asgari’s research interests are deeply rooted in the fields of organic and polymer chemistry, with a particular focus on the synthesis and application of nanomaterials. She is passionate about exploring innovative drug delivery systems, aiming to enhance the efficacy and targeting of anticancer therapies through the development of pH-sensitive nanocarriers and mesoporous silica-based nanocarriers. Her work also delves into the synergistic effects of combining various therapeutic agents, such as doxorubicin and curcumin, as well as Ag nanoparticles and vancomycin, for improved treatment outcomes. Additionally, Asgari is interested in the broader applications of nanotechnology, including photocatalysis, piezocatalysis, and the development of advanced nanocomposites. Her research is characterized by a strong interdisciplinary approach, integrating material science with cutting-edge techniques in spectroscopy and analytical chemistry to innovate and solve complex problems in medicine and technology.

Award and Honor

Shadi Asgari has been recognized for her academic excellence and contributions to the field of chemistry through several prestigious awards and honors. In 2016, she achieved the notable distinction of ranking 8th among approximately 5000 contestants in Iran’s highly competitive Ph.D. examination. This accomplishment underscores her dedication and intellectual prowess. In 2019, Asgari was awarded the Ministry of Science, Research and Technology’s Scholarship of Iran for her sabbatical leave, facilitating her advanced research abroad.

Research Skills

Shadi Asgari possesses a diverse and extensive array of research skills that underpin her contributions to the fields of organic and polymer chemistry. Proficient in a wide range of spectroscopic and analytical techniques, including Fourier-transform infrared spectroscopy (FT-IR), ultraviolet-visible spectroscopy (UV-Vis), and photoluminescence spectroscopy (PL), she demonstrates a thorough understanding of molecular structures and interactions. Asgari’s expertise extends to high-performance liquid chromatography (HPLC) for precise compound analysis, as well as microscopy techniques such as tabletop scanning electron microscopy (SEM) for detailed imaging of nanostructures. Additionally, her proficiency in electrospinning devices enables the fabrication of nanofibers with tailored properties for various applications. Furthermore, Asgari is skilled in thermal analysis techniques such as thermogravimetric analysis (TGA) and possesses experience in surface characterization methods like contact angle measurements. Her proficiency in these research skills empowers her to conduct innovative studies and contribute significantly to the advancement of knowledge in her field.

Publications

  • Title: FcLR-Chitosan/Pullulan nanofibers: Boosted antibacterial activity and decreased cytotoxicity
    Authors: Asgari, S., Mohammadi Ziarani, G., Badiei, A., Jahromi, M., Najafabadi, B.M.
    Journal: Materials Today Communications, 2024, 39
    Citations: 0
  • Title: Zr-UiO-66, ionic liquid (HMIM+TFSI−), and electrospun nanofibers (polyacrylonitrile): All in one as a piezo-photocatalyst for degradation of organic dye
    Authors: Asgari, S., Mohammadi Ziarani, G., Badiei, A., Vasseghian, Y.
    Journal: Chemical Engineering Journal, 2024, 487
    Citations: 0
  • Title: Electron/hole piezocatalysis in chemical reactions
    Authors: Asgari, S., Mohammadi Ziarani, G., Badiei, A., Iravani, S.
    Journal: Materials Advances, 2023, 4(23), pp. 6092–6117
    Citations: 0
  • Title: Reducing energy consumption in operation and demolition phases by integrating multi-objective optimization with LCA and BIM
    Authors: Asgari, S., Haghir, S., Noorzai, E.
    Journal: Energy Efficiency, 2023, 16(6), 54
    Citations: 2
  • Title: Enhanced photocatalytic activity of modified black phosphorus-incorporated PANi/PAN nanofibers
    Authors: Asgari, S., Mohammadi Ziarani, G., Badiei, A., Iravani, S., Mohajer, F.
    Journal: RSC Advances, 2023, 13